cosmic-comp/src/shell/layout/floating/mod.rs

// SPDX-License-Identifier: GPL-3.0-only

use crate::shell::layout::Layout;
use smithay::{
    desktop::{layer_map_for_output, Kind, Space, Window},
    reexports::wayland_protocols::xdg_shell::server::xdg_toplevel::{
        ResizeEdge, State as XdgState,
    },
    wayland::{
        output::Output,
        seat::{PointerGrabStartData, Seat},
        Serial,
    },
};

mod grabs;
pub use self::grabs::*;

#[derive(Debug, Default)]
pub struct FloatingLayout {
    pending_windows: Vec<Window>,
}

impl Layout for FloatingLayout {
    fn map_window<'a>(
        &mut self,
        space: &mut Space,
        window: &Window,
        seat: &Seat,
        _focus_stack: Box<dyn Iterator<Item = &'a Window> + 'a>,
    ) {
        if let Some(output) = super::output_from_seat(Some(seat), space) {
            Self::map_window(space, window, &output)
        } else {
            self.pending_windows.push(window.clone());
        }
    }

    fn refresh(&mut self, space: &mut Space) {
        self.pending_windows.retain(|w| w.toplevel().alive());
        if let Some(output) = super::output_from_seat(None, space) {
            for window in self.pending_windows.drain(..) {
                Self::map_window(space, &window, &output);
            }
        }
        // TODO make sure all windows are still visible on any output or move them
    }

    fn unmap_window(&mut self, space: &mut Space, window: &Window) {
        space.unmap_window(window);
        self.pending_windows.retain(|w| w != window);
    }

    fn maximize_request(&mut self, space: &mut Space, window: &Window, output: &Output) {
        let layers = layer_map_for_output(&output);
        let geometry = layers.non_exclusive_zone();

        space.map_window(&window, (-geometry.loc.x, -geometry.loc.y), true);
        #[allow(irrefutable_let_patterns)]
        if let Kind::Xdg(surface) = &window.toplevel() {
            let ret = surface.with_pending_state(|state| {
                state.states.set(XdgState::Maximized);
                state.size = Some(geometry.size);
            });

            if ret.is_ok() {
                window.configure();
            }
        }
    }

    fn move_request(
        &mut self,
        space: &mut Space,
        window: &Window,
        seat: &Seat,
        serial: Serial,
        start_data: PointerGrabStartData,
    ) {
        if let Some(pointer) = seat.get_pointer() {
            let mut initial_window_location = space.window_location(&window).unwrap();

            #[allow(irrefutable_let_patterns)]
            if let Kind::Xdg(surface) = &window.toplevel() {
                // If surface is maximized then unmaximize it
                if let Some(current_state) = surface.current_state() {
                    if current_state.states.contains(XdgState::Maximized) {
                        let fs_changed = surface.with_pending_state(|state| {
                            state.states.unset(XdgState::Maximized);
                            state.size = None;
                        });

                        if fs_changed.is_ok() {
                            surface.send_configure();

                            // NOTE: In real compositor mouse location should be mapped to a new window size
                            // For example, you could:
                            // 1) transform mouse pointer position from compositor space to window space (location relative)
                            // 2) divide the x coordinate by width of the window to get the percentage
                            //   - 0.0 would be on the far left of the window
                            //   - 0.5 would be in middle of the window
                            //   - 1.0 would be on the far right of the window
                            // 3) multiply the percentage by new window width
                            // 4) by doing that, drag will look a lot more natural
                            //
                            // but for anvil needs setting location to pointer location is fine
                            let pos = pointer.current_location();
                            initial_window_location = (pos.x as i32, pos.y as i32).into();
                        }
                    }
                }
            }

            let grab = MoveSurfaceGrab::new(start_data, window.clone(), initial_window_location);

            pointer.set_grab(grab, serial, 0);
        }
    }

    fn resize_request(
        &mut self,
        space: &mut Space,
        window: &Window,
        seat: &Seat,
        serial: Serial,
        start_data: PointerGrabStartData,
        edges: ResizeEdge,
    ) {
        if let Some(pointer) = seat.get_pointer() {
            let location = space.window_location(&window).unwrap();
            let size = window.geometry().size;

            let grab =
                grabs::ResizeSurfaceGrab::new(start_data, window.clone(), edges, location, size);

            pointer.set_grab(grab, serial, 0);
        }
    }
}

impl FloatingLayout {
    pub fn new() -> FloatingLayout {
        Default::default()
    }

    fn map_window(space: &mut Space, window: &Window, output: &Output) {
        let win_geo = window.bbox();
        let layers = layer_map_for_output(&output);
        let geometry = layers.non_exclusive_zone();

        let position = (
            -geometry.loc.x + (geometry.size.w / 2) - (win_geo.size.w / 2),
            -geometry.loc.y + (geometry.size.h / 2) - (win_geo.size.h / 2),
        );
        #[allow(irrefutable_let_patterns)]
        if let Kind::Xdg(xdg) = &window.toplevel() {
            let ret = xdg.with_pending_state(|state| {
                state.states.unset(XdgState::TiledLeft);
                state.states.unset(XdgState::TiledRight);
                state.states.unset(XdgState::TiledTop);
                state.states.unset(XdgState::TiledBottom);
            });
            if ret.is_ok() {
                xdg.send_configure();
            }
        }
        space.map_window(&window, position, false);
    }
}
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`// SPDX-License-Identifier: GPL-3.0-only`

			`use crate::shell::layout::Layout;`
			`use smithay::{`
			`desktop::{layer_map_for_output, Kind, Space, Window},`
			`reexports::wayland_protocols::xdg_shell::server::xdg_toplevel::{`
			`ResizeEdge, State as XdgState,`
			`},`
			`wayland::{`
			`output::Output,`
			`seat::{PointerGrabStartData, Seat},`
			`Serial,`
			`},`
			`};`

			`mod grabs;`
			`pub use self::grabs::*;`

shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`#[derive(Debug, Default)]`
			`pub struct FloatingLayout {`
			`pending_windows: Vec<Window>,`
			`}`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00
			`impl Layout for FloatingLayout {`
			`fn map_window<'a>(`
			`&mut self,`
			`space: &mut Space,`
			`window: &Window,`
			`seat: &Seat,`
			`_focus_stack: Box<dyn Iterator<Item = &'a Window> + 'a>,`
			`) {`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`if let Some(output) = super::output_from_seat(Some(seat), space) {`
			`Self::map_window(space, window, &output)`
			`} else {`
			`self.pending_windows.push(window.clone());`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`}`
			`}`

shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`fn refresh(&mut self, space: &mut Space) {`
			`self.pending_windows.retain(\|w\| w.toplevel().alive());`
			`if let Some(output) = super::output_from_seat(None, space) {`
			`for window in self.pending_windows.drain(..) {`
			`Self::map_window(space, &window, &output);`
			`}`
			`}`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`// TODO make sure all windows are still visible on any output or move them`
			`}`

input: Move windows between workspaces 2022-03-30 22:11:29 +02:00			`fn unmap_window(&mut self, space: &mut Space, window: &Window) {`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`space.unmap_window(window);`
			`self.pending_windows.retain(\|w\| w != window);`
input: Move windows between workspaces 2022-03-30 22:11:29 +02:00			`}`

Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`fn maximize_request(&mut self, space: &mut Space, window: &Window, output: &Output) {`
			`let layers = layer_map_for_output(&output);`
			`let geometry = layers.non_exclusive_zone();`

			`space.map_window(&window, (-geometry.loc.x, -geometry.loc.y), true);`
			`#[allow(irrefutable_let_patterns)]`
			`if let Kind::Xdg(surface) = &window.toplevel() {`
			`let ret = surface.with_pending_state(\|state\| {`
			`state.states.set(XdgState::Maximized);`
			`state.size = Some(geometry.size);`
			`});`

			`if ret.is_ok() {`
			`window.configure();`
			`}`
			`}`
			`}`

			`fn move_request(`
			`&mut self,`
			`space: &mut Space,`
			`window: &Window,`
			`seat: &Seat,`
			`serial: Serial,`
			`start_data: PointerGrabStartData,`
			`) {`
			`if let Some(pointer) = seat.get_pointer() {`
			`let mut initial_window_location = space.window_location(&window).unwrap();`

			`#[allow(irrefutable_let_patterns)]`
			`if let Kind::Xdg(surface) = &window.toplevel() {`
			`// If surface is maximized then unmaximize it`
			`if let Some(current_state) = surface.current_state() {`
			`if current_state.states.contains(XdgState::Maximized) {`
			`let fs_changed = surface.with_pending_state(\|state\| {`
			`state.states.unset(XdgState::Maximized);`
			`state.size = None;`
			`});`

			`if fs_changed.is_ok() {`
			`surface.send_configure();`

			`// NOTE: In real compositor mouse location should be mapped to a new window size`
			`// For example, you could:`
			`// 1) transform mouse pointer position from compositor space to window space (location relative)`
			`// 2) divide the x coordinate by width of the window to get the percentage`
			`// - 0.0 would be on the far left of the window`
			`// - 0.5 would be in middle of the window`
			`// - 1.0 would be on the far right of the window`
			`// 3) multiply the percentage by new window width`
			`// 4) by doing that, drag will look a lot more natural`
			`//`
			`// but for anvil needs setting location to pointer location is fine`
			`let pos = pointer.current_location();`
			`initial_window_location = (pos.x as i32, pos.y as i32).into();`
			`}`
			`}`
			`}`
			`}`

			`let grab = MoveSurfaceGrab::new(start_data, window.clone(), initial_window_location);`

			`pointer.set_grab(grab, serial, 0);`
			`}`
			`}`

			`fn resize_request(`
			`&mut self,`
			`space: &mut Space,`
			`window: &Window,`
			`seat: &Seat,`
			`serial: Serial,`
			`start_data: PointerGrabStartData,`
			`edges: ResizeEdge,`
			`) {`
			`if let Some(pointer) = seat.get_pointer() {`
			`let location = space.window_location(&window).unwrap();`
			`let size = window.geometry().size;`

			`let grab =`
			`grabs::ResizeSurfaceGrab::new(start_data, window.clone(), edges, location, size);`

			`pointer.set_grab(grab, serial, 0);`
			`}`
			`}`
			`}`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00
			`impl FloatingLayout {`
			`pub fn new() -> FloatingLayout {`
			`Default::default()`
			`}`

wayland: Add support for wlr_output_configuration 2022-04-13 22:59:14 +02:00			`fn map_window(space: &mut Space, window: &Window, output: &Output) {`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`let win_geo = window.bbox();`
			`let layers = layer_map_for_output(&output);`
			`let geometry = layers.non_exclusive_zone();`

			`let position = (`
			`-geometry.loc.x + (geometry.size.w / 2) - (win_geo.size.w / 2),`
			`-geometry.loc.y + (geometry.size.h / 2) - (win_geo.size.h / 2),`
			`);`
			`#[allow(irrefutable_let_patterns)]`
			`if let Kind::Xdg(xdg) = &window.toplevel() {`
			`let ret = xdg.with_pending_state(\|state\| {`
			`state.states.unset(XdgState::TiledLeft);`
			`state.states.unset(XdgState::TiledRight);`
			`state.states.unset(XdgState::TiledTop);`
			`state.states.unset(XdgState::TiledBottom);`
			`});`
			`if ret.is_ok() {`
			`xdg.send_configure();`
			`}`
			`}`
			`space.map_window(&window, position, false);`
			`}`
			`}`